Auditory frequency analysis as an active dissipative process

on 06.02.2026

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arXiv:2602.05147v1 Announce Type: new
Abstract: An active dissipative process organizes auditory frequency analysis in the mammalian cochlea. A minimal active beam model reveals that a spatially varying viscous coupling operator, $partial_{xx}kappapartial_{xx}$, generates dissipative forces with wave–like propagation. Local energy injection and spatial redistribution compete to govern the dynamics. This balance enables the quantitative reproduction of four key features: sharp tuning, high gain, compression, and spontaneous otoacoustic emissions. Hearing thereby belongs to a broad class of nonequilibrium pattern-forming systems.

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Auditory frequency analysis as an active dissipative process

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